Data centers account for a high proportion of global electricity consumption and are growing
rapidly, with energy consumption mainly focused on electricity and cooling.
1
Industry Pain
Points
High energy consumption leads to high operating costs, traditional energy systems have high
carbon emissions, and low energy utilization efficiency.
2
The Problems
Faced
The expansion of data center scale brings environmental pressure, and the industry needs to
explore low-carbon and sustainable energy solutions to meet carbon neutrality goals.
3
Advantages of
Biomass Energy
Biomass energy is a renewable energy source with similar carbon emissions. China produces
approximately 1 billion tons of agricultural waste (such as straw and sawdust) annually,
which has the potential for large-scale utilization.
Improving the efficiency of electricity utilization
0.4lcoe
Reduce power costs in data centers
80%recycle
Efficient the rmoelectric conversion technology
Comparison Between
Traditional Data Centers and Biomass Power Generation
The system releases heat energy through biomass pyrolysis process to generate steam, which
then drives the operation of the generator set. By improving energy efficiency and reducing
energy consumption.
High carbon emissions, not environmentally friendly.
The energy supply is unstable.
Biomass Pyrolysis Power Generation
Low carbon and environmentally friendly.
Efficient utilization of energy.
Resource recycling.
Long term economic feasibility.
How HaiQi Biomass Pyrolysis Power Plant Solves Energy Challenges
AI Intelligence RunsThrough The Entire Process
From Passive to Active:
Traditional systems rely on manual regulation, while Al predicts future demands (e.g,
pre-cooling storage ahead of heatwaves).
From Single Points to Holistic Integration:
Breaking down isolated operations of power generation, cooling, and energy storage, to
achieve cross-process collaborative optimization.
From Experience to Data-Driven:
The era of veteran workers "adjusting valves by intuition" has evolved into Al-powered
precision decision-making trained on trillions of data points.
Economic Benefit Analysis
Economic Benefit Analysis of Biomass Pyrolysis Power Generation Application Data Center. Daily
operation and maintenance costs are expenses that must be borne during the continuous operation
of the project, and have a significant impact on the long-term economic benefits of the project.
Cost
Overview
Incorporates core facilities, providingthe technical foundation and high-efficiency
operation guarantee forthe project.
Annual revenue
assessment
Based on the annual processing capacity of biomass raw materials, it has great market
potential.
Environmental
benefits
It has alleviated the burden on the environment, provided strong support for the stability and
balance of the Earth's ecosystem.
Biomass Pyrolysis Polygeneration By-Product and its
Application
1S0 14040 Life Cycle Evaluation Principles and framework, 1S014044 life cycle evaluation
requirements and guidelines.1S0/TS 14067:2018 Greenhouse Gas emissions -Carbon footprint of
products- Requirements and guidelines for quantification and communication
Resource
Exploitation
Transportation Of
Raw Materials
Manufacturing
Filling
Packaging
storage
Transportation
Distribution
Retail
Use
Carbon Inventory System
REDC system is a fuly functional carbon calculator to help enterprises quickly calculate
organizational carbon emissions and produccarbon footprints.By calling the background logic,
the product is associated with the supplier, and the data crossing and disassembly work are
saved to the maximum extent, which is automatically calculated by the system.
The system releases heat energy through biomass pyrolysis process to generate steam, which
then drives the operation of the generator set. By improving energy efficiency and reducing
energy consumption, it effectively reduces carbon emissions, lowers operating costs, and
demonstrates significant environmental and economic benefits. It is particularly suitable
for high energy consuming facilities such as data centers.
The World's First Biomass Negative Carbon AI Data Center Solution
HaiQi Biomass Negative Carbon AI Operation Advantages
AI Monitoring & Data Collection:
Automatically classifies raw material types
using visual recognition systems and material
AI-Driven Optimization:
Sells more electricity during peak pricing and prioritizes self-consumptionduring low rates.
carbon reduction and controls biomass consumption
AI Prediction & Learning:
Learn user patterns (e.g., factories use more
power in daytime, farms require nighttime
refrigeration) to pre-adjust systems
AI Fault Detection & Alerts:
Automatically activates contingency plans
(e.g., switches to backup chillers or adjusts
power load)
Big Data Monitoring and Management Platform
This platform is an intelligent management system built for complex project operation needs,
integrating data collection, analysis, monitoring, and decision support functions to help
enterprises achieve refined management and data-driven continuous optimization.
Economic Benefit Analysis of Biomass Pyrolysis Power Generation Application Data Center.This
platform is an intelligent management system built for complex project operation needs.
Simple maintenance and easy to operate. Wearing parts can be quickly replaced.
Various body material choices which can adapt to different working condition,
heat resistant and corrosion resistant requirement.
For example: the heated part is made of stainless steel 310S and MA253
materials, and the wear-resistant part is made of imported HARDOX wear resistant
materials. The corrosion-resistant part is made of stainless steel 321 to ensure
the stable and continuous working condition of the system.
HaiQi use high quality motor like SEW or Siemens to ensure stableoperating conditions of industrial systems.
Systems are designed to comply with EU orASME standards.
EU/ASME compliance on system connection pipeline, gas pipeline,water pipeline, gas pipeline, Flanged link piping.
In the flue gas treatment part, HaiQi adopts dry flue gas dust removal method,
and adopts high temperature bag dust collector/ESP electrostatic dust collector for different working conditions.
Different dust removal systems are configured according to local emission standards for dust content in flue gas,
PM10,PM2.5 and local electrical directives.
Energy production parts such as boilers comply with ASME standards.
Pressure vessels such as: gas compressor tank,
superheated/saturated steam drum, EU/ASME standards are usually applied.
System comprehensive efficiency >90%,significantly exceeding traditional energy systems
(typically < 50%)
Equipment Safety Technical
Safeguard Measures
Through redund ant design and automated monitoring system, the operational stability of the system
hasbeen im proved by 30%. Redun dant configurations (such as backup heat exch angers and backup
generator shave been introd uced in the system design.
Technical Guarantee Measures
Safety Solutions
Operation and
maintenance
Regular maintenance
schedule
Monitoring and Fault
Warning System
Optimal scheduling
of cogeneration systems
Dynamic adjustment
of load distribution
Big data analysis
prediction and regulation
Operation and
maintenance 222
Regular maintenance
schedule
Monitoring and Fault
Warning System
Optimal scheduling
of cogeneration systems
Dynamic adjustment
of load distribution
Big data analysis
prediction and regulation
HaiQi Strength in Biomass Pyrolysis Equipment
Economic Benefit Analysis of Biomass Pyrolysis Power Generation Application Data Center. This platform
is an intelligent management system built for complex project operation needs.
For data center operators, biomass pyrolysis power generation brings many tangible personal benefits. From a cost perspective, biomass raw materials have a wide range of sources and relatively stable prices, which can effectively reduce the energy procurement costs of data centers compared to traditional fossil fuels.
We provide medium and long-term solutions to the problems of biomass waste, transforming waste into energy at no environmental cost and making it economically viable and at the same time compatible with the international environmental regulations and standards
